Central Auditory Processing and the Common Core

May 2014

Jeanane M. Ferre, PhD, CCC-A

Auditory processing is a true process that begins at the ear and ends when we execute a response. This peripheral-to-central continuum consists of acoustic and related phonologic, linguistic, and cognitive-communicative skills that enable us to communicate successfully, achieve academically, and maintain our sense of self. Breakdowns along this continuum can affect a listener at school, in the home, and in social communication situations. Audiologists and speech-language pathologists work together to assess deficit areas, describe impact, and provide intervention.

The Common Core State Standards, now adopted by 44 states, represent learning goals for students in grades K–12 designed to ensure that students graduating from high school are prepared to begin post-secondary education and/or to enter the workforce. The Core, as it has come to be known, currently includes standards for math and English language arts, with the latter including reading, writing, speaking, listening, and language usage (National Governors Association Center for Best Practices, Council of Chief State School Officers, 2010). Because breakdowns along the processing continuum adversely affect academics and/or communication, audiologists and speech-language pathologists play important roles in the implementation of the Core, assisting both students and teachers in meeting these goals.

Speech-language pathologists use formal and informal tools to examine phonologic, linguistic, and executive aspects along the continuum. Psychologists, educational specialists, and other professionals obtain information regarding a client's academic achievement and everyday listening skills. Audiologists diagnose central auditory processing deficits by using assessment tools designed to maximize the load on the auditory system while minimizing the influence of other neurocognitive skills (e.g., attention, receptive language). This interprofessional team is able to clarify the nature of the listener's functional impairment and develop deficit-specific intervention plans to reduce or resolve the auditory impairment, improve affected communicative and academic skill sets, and minimize the impact of the processing disorder on the student's life.

Central auditory processing disorders (CAPDs) are breakdowns in the acoustic components of the processing continuum, specifically deficiencies in the brain's ability to use auditory information sent to it from the peripheral auditory system (i.e., outer, inner, middle ears and the auditory nerve). The central auditory processes identified to date broadly fall into one of three types: auditory discrimination, binaural processing, and temporal processing. Substantial research has indicated that a deficit in any of the central auditory processes can co-exist with or be a significant contributing factor to other functional deficits, including learning disabilities, speech-language impairment, attention deficit, or developmental disabilities (Bellis, 2003; Burns, 2013; Ferre & Wilber, 1986; Geffner, 2007; Jerger, Martin, & Jerger, 1987; Tillery, Katz, & Keller, 2000).

Deficits in auditory discrimination are the result of inefficient extraction of the fine acoustic cues in the speech signal. A student who does not "hear" the sounds of speech efficiently will struggle to attach meaning to those sounds. Thus, secondary deficits in phonologic processing, reading decoding and comprehension, and spelling are common. Inefficient central hearing can adversely affect all aspects of language development, including acquisition of age-appropriate vocabulary, morphology, syntax, semantics, and/or a second verbal language. Even under optimal listening conditions, this student's auditory system is working harder than normal to analyze incoming acoustic information. As listening conditions become more difficult, the student risks excessive auditory fatigue and reduced listening comprehension (Bellis, 2003; Bellis & Ferre, 1999; Burns, 2013; Ferre, 1997; Geffner, 2007; Tazeau & Hamaguchi, 2013).

Deficient binaural processing is characterized by difficulty synthesizing, manipulating, and/or attaching meaning to multiple incoming auditory targets. The listener may be overwhelmed by the amount of verbal information flooding the system, thereby adversely affecting comprehension skills. By extension, writing, note-taking, and direction following can be adversely affected. An inability to synthesize and attach meaning quickly and efficiently to incoming verbal information places the listener at risk for secondary issues in receptive and expressive language, including syntax, semantics, symbolic, and social/pragmatic skills, and/or word recall/retrieval (Bellis, 2003; Bellis & Ferre, 1999).

The listener with a temporal processing deficit has difficulty recognizing the perceptual boundaries between/among targets and the acoustic contours (i.e., patterns) in the rapidly occurring speech stream. Students with this deficit may have difficulty in reading, phonological, and spelling skills, direction following, note-taking, sequencing, auditory attention, working memory, and problem-solving. Communication problems can include difficulty understanding sarcasm, recognizing word meaning that may vary depending upon stress (e.g., CONvict vs. conVICT), and recognizing and using nonverbal pragmatic language cues, such as facial expressions, body language, and gestures (Bellis, 2003; Bellis & Ferre, 1999; Ferre, 1997; Rawool, 2007).

Given these significant adverse effects on communication and academics, a CAPD places the student at risk for failure to meet the Common Core Standards in English language arts, including spelling, written language, and speaking/listening.

Effective intervention for CAPDs involves the balanced implementation of deficit-specific management and treatment goals/objectives. In management, compensatory strategies and environmental accommodations are selected to minimize the impact of the disorder on the listener's day-to-day functioning. In treatment, formal and informal therapy techniques are used to reduce or resolve the auditory deficiency and to teach functional compensatory strategies.

Appropriate goals for the student with impaired discrimination include discrimination and/or recognition of speech under adverse listening conditions, recognition and use of key elements in spoken targets, and use of visual cues to assist speech recognition (e.g., speechreading).

Sample Benchmarks—Discrimination and Recognition

Discriminate minimally contrasted phoneme pairs presented auditorily only (i.e., no lipreading cues) in a background of multi-speaker babble that is of equal loudness (i.e., at a 0 signal-to-noise ratio) and emanates from the same location as the target signal with 90% accuracy.

Recognize everyday sentences presented without visual cues in a background of noise of equal loudness with 85% accuracy.

Recognize everyday sentences presented with visual cues in a background of noise that is much louder than the target with 75% accuracy.

Using Visual Cues

Student will discriminate same-difference for target presented visually only with 90% accuracy.

Student will identify a target compound word presented visually only (i.e., no auditory input) from among a closed set of no more than 30 printed word or picture choices with 90% accuracy.

Student will identify a target sentence from among a closed set of 10 choices with 80% accuracy.

Appropriate goals for the student with binaural processing deficit may include recognition of dichotically presented targets, improved communication between the two hemispheres, and synthesis/manipulation of multiple auditory, auditory-visual, and acoustic-linguistic targets.

Sample Benchmarks—Dichotic Listening

Repeat two digits presented simultaneously, one to each ear, with 90% accuracy.

Given two sentences, presented simultaneously, one to each ear, student will repeat sentence directed to right ear only (or to left ear only) with 90% accuracy.

Interhemispheric Integration

Given an array of common objects, student will name object without looking with 90% accuracy.

Given an array of common objects, student will find named object without looking with 90% accuracy.

Student will follow two-part, three-element verbal directions (e.g., point to large white square & small blue triangle), presented without visual cues in a background of noise of equal loudness with 90% accuracy.

Sound Synthesis, Synthesizing Multisensory Targets

Given a word and using a "phoneme list," student will create as many rhymes as possible in 2 minutes.

Given a "deck" of 50 word cards, student generates a single rhyming word for target in 2 minutes with 90% accuracy.

For the student exhibiting deficient temporal processing, the therapy protocol includes exercises to improve recognition of auditory patterns, recognition and use of stress in speech, and recognition and use of visual cues and patterns to assist comprehension.

Given a sentence, student will identify stressed word or words in sentence with 90% accuracy and describe what information the stressed word conveys (e.g., I went to the grocery store on Tuesday. Stressed word: grocery. Information conveyed: location/where).

Use of Visual Cues/Patterns

Given picture choices, student will match emotion word/phrase (e.g., They are frightened) with corresponding picture with 90% accuracy.

Given printed sentences, student will identify and imitate the "prosodic" marker in the sentence with 90% accuracy (e.g., identify the ? in a sentence to denote questioning/rising intonation and imitate same).

For all students, the IEP should include goals for active listening and vigilance. Active listening means taking responsibility for one's listening success or failure by understanding the impact of auditory impairment in one's life, recognizing the aspects of communication that are under the listener's control, displaying effortful listening behaviors, and taking overt steps to avoid or correct potential communication mishaps. In vigilance, listening and discrimination skills are used to maintain focus and identify key information in running speech.

Sample Benchmarks—Active Listening and Vigilance

Student will state two difficult listening situations that he/she has encountered.

For a self-reported difficult listening situation, student will state (and practice) one strategy to minimize the listening difficulty.

Student will indicate through hand signal "rare" or different target from within a string of common targets (e.g., buh-buh-dee-buh-buh-buh-buh-dee).

By intervening in a timely manner after differential diagnosis and by including deficit-specific auditory processing training in therapy, we maximize the intervention process, enabling our students to meet the Common Core State Standards in Academics, including Speaking and Listening. In so doing, we minimize the long-term effects of processing-based learning and psychosocial disability on the individual as well as on society.

About the Author

Jeanane M. Ferre, PhD, CCC-A, has been in private practice for over 25 years in the Chicago metropolitan area, providing assessment and intervention of central auditory processing disorders among children and adults. She has published numerous journal articles and presented at the local, state, national, and international levels on CAPD. Her works include Processing Power: A Guide to CAPD Assessment and Management, The M3 Model for Treating Auditory Disorders, and The Differential Screening Test for Processing, as well as chapters in three recent texts on central auditory processing. Dr. Ferre has received Fellowship, the Clinical Achievement Award, and Honors of the Illinois Speech-Language-Hearing Association. She is a Fellow of the American Speech-Language-Hearing Association and co-chair for the 2015 ASHA Annual Convention. Contact her at jmfphd@comcast.net.

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